File:  [NetBSD Developer Wiki] / wikisrc / ports / evbarm.mdwn
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Wed Nov 7 15:09:41 2018 UTC (8 months, 1 week ago) by gson
Branches: MAIN
CVS tags: HEAD
Show the exact names of the qemu binaries used for evbarm emulations

    1: [[!template id=port
    2: port="evbarm"
    3: port_alt="arm"
    4: port_var1="earm"
    5: port_var2="earmeb"
    6: port_var3="earmv6hf"
    7: port_var4="earmv7hf"
    8: port_var5="earmv7hfeb"
    9: port_var_install_notes="evbarm-earm"
   10: cur_rel="8.0"
   11: future_rel="9.0"
   12: changes_cur="8.0"
   13: changes_future="9.0"
   14: thumbnail="http://www.netbsd.org/images/ports/evbarm/adi_brh.gif"
   15: about="""
   16: NetBSD/evbarm is the port of NetBSD to various evaluation and prototyping
   17: boards based on CPUs implementing the ARM architecture. NetBSD/evbarm also
   18: supports some specific embedded system products based on prototype board
   19: designs.
   20: 
   21: Matt Thomas is the maintainer of NetBSD/evbarm.
   22: 
   23: ### CPU types
   24: 
   25: The evbarm port can be built with a variety of CPU options.  There are
   26: three main variables: the instruction set, the endianness, and whether
   27: there is hardware floating point.  By default the CPU type is "earm",
   28: and this implies little endian (el when explicitly stated), and soft
   29: (emulated) floating point.  Another example, suitable for Raspberry PI
   30: 2, is earmv7hf, which is the v7 instruction set, little endian,
   31: and hardware floating point.
   32: 
   33: Typically, various boards are best compiled with a CPU type that
   34: matches the board's CPU and floating point support, but generally a
   35: lower CPU instruction set version is workable on a newer board.  See
   36: build.sh and look for aliases for the evbarm port.
   37: 
   38: Some processors can operate as arm or the 64-bit ARM variant, aarch64, which is supported by
   39: [[NetBSD/aarch64|aarch64]].
   40: 
   41: ### Kernels and userland
   42: 
   43: The evbarm userland can be used on any system that can run code of the
   44: CPU type used for the build.  Typically, a particular board requires a
   45: kernel for that board.
   46: 
   47: ### anita and qemu
   48: 
   49: anita can be used to test builds.  (In addition to anita, install qemu and dtb-arm-vexpress from pkgsrc.)   The release subdirectory should follow the naming convention on the autobuild cluster, used below.
   50: 
   51:  - evbarm-earmv7hf uses "qemu-system-arm -M vexpress-a15"
   52:  - evbarm-aarch64 uses "qemu-system-aarch64 -M virt"
   53:  - Information on how to test emulated versions of other specific hardware is welcome.
   54: 
   55: ### Board specific information
   56:  - [[Allwinner sunxi family SoCs|Allwinner]]
   57:  - [[BeagleBone and BeagleBone Black|BeagleBone]]
   58:  - [[NVIDIA Tegra|Tegra]]
   59:  - [[ODROID C1 and C1+|ODROID-C1]]
   60:  - [[Raspberry Pi 1, 2 and 3|Raspberry Pi]]
   61: 
   62: """
   63: 
   64: supported_hardware="""
   65: 
   66: **NOTE**: This list is incomplete. For a full list of configurations, please see the [evbarm kernel configs](http://cvsweb.netbsd.org/bsdweb.cgi/src/sys/arch/evbarm/conf/) directory in CVS.
   67: 
   68: [[!toc startlevel=3]]
   69: 
   70: ### ADI Engineering **BRH** ("Big Red Head")
   71: 
   72: The BRH is an evaluation and development platform for the Intel **i80200**
   73: XScale processor. The BRH is based on ADI's **BECC** ("Big Endian Companion
   74: Chip"). The BRH is capable of both big- and little-endian operation, although
   75: NetBSD currently only supports little-endian operation.
   76: 
   77: Support for the BRH was written by Jason Thorpe, and contributed by Wasabi
   78: Systems, Inc.
   79: 
   80:  * On-board NS16550-compatible serial ports (_com_)
   81:  * On-board Intel i82559 Ethernet on the PCI bus (_fxp_)
   82:  * On-chip timer on the BECC (used as system clock)
   83:  * Other devices inserted into the PCI slot
   84: 
   85: The BRH comes with 128M of SDRAM. Systems with BECC revision 7 or less are
   86: limited to 64M due to the layout of the PCI DMA windows. Users of these
   87: systems should obtain an FPGA upgrade from ADI to revision 8 or later of the
   88: BECC.
   89: 
   90: ### Allwinner Technology
   91: Various boards based on [[Allwinner]] SoCs are supported, including the BananaPi, Cubieboard 2, Cubietruck, Cubieboard 4, and Merrii Hummingbird A31.
   92: 
   93: ### Arcom **Viper**
   94: 
   95: The Arcom Viper is a single board computer based on the PXA255 XScale
   96: processor.
   97: 
   98: Support for the Arcom Viper was written by Antti Kantee.
   99: 
  100:  * On-chip timers (_saost_ used as system clock)
  101:  * On-chip serial ports (_com_)
  102:  * On-board SMC91C111 ethernet (_sm_)
  103: 
  104: ### ARM, Ltd. **Integrator**
  105: 
  106: The Integrator/AP is an ATX form-factor board that is used for development of
  107: ARM processor-based designs. It supports up to four processors on plug-in core
  108: modules, and provides clocks, a bus interface, and interrupt support. The
  109: Integrator/AP also supports logic modules which provide additional
  110: peripherals, and can accommodate up to three PCI expansion cards. The
  111: Integrator/AP can also be inserted into a CompactPCI backplane.
  112: 
  113: Support for the Integrator was written by Richard Earnshaw, and contributed by
  114: ARM, Ltd.
  115: 
  116:  * PrimeCell PL010 UARTs in the System Controller FPGA (_plcom_)
  117:  * PrimeCell PL030 Real-time Clock in the System Controller FPGA (_plrtc_)
  118:  * PrimeCell PL181 MultiMedia Card Interface
  119:  * Other devices inserted into the PCI expansion slots
  120: 
  121: ### Atmark Techno **Armadillo-9**
  122: 
  123: The Armadillo-9 is a single board computer based on the EP9315 processor.
  124: 
  125: Support for the Armadillo-9 was written by Katsuomi Hamajima.
  126: 
  127:  * On-CPU RS232 UARTs (2) (_epcom_)
  128:  * On-CPU 10/100 Ethernet MAC (_epe_)
  129:  * system clock from on-CPU timers (_epclk_)
  130:  * CompactFlash socket (_eppcic_)
  131:  * USB 1.1 ports (_ohci_)
  132: 
  133: ### BeagleBoard.org **BeagleBoard** and **BeagleBoard-xM**
  134: The [[BeagleBoard]] is a low-power open-source hardware single-board computer from BeagleBoard.org.
  135: 
  136: ### BeagleBoard.org **BeagleBone** and **BeagleBone Black**
  137: The [[BeagleBone]] is a low-cost credit-card-sized computer from BeagleBoard.org.
  138: 
  139: ### Gumstix, Inc. **gumstix**
  140: 
  141: The [gumstix](http://www.gumstix.com/) is a small form-factor motherboard
  142: based on the PXA255 and PXA270 XScale processor. Supports only PXA255 now.
  143: 
  144: Support for the gumstix was written by KIYOHARA Takashi.
  145: 
  146:  * basix
  147:  * cfstix
  148:  * etherstix
  149:  * netCF
  150:  * netDUO
  151:  * netDUO-mmc
  152:  * netMMC
  153: 
  154: When booting, it is necessary to set these with u-boot dynamically.
  155: 
  156: <pre> > go 0xa0200000 busheader=basix</pre>
  157: 
  158:  * audiostix
  159:  * console-st (waysmall - STUART)
  160:  * console-hw (waysmall)
  161:  * GPSstix (GPS not test)
  162:  * tweener
  163: 
  164: ### Hardkernel ODROID-C1 and ODROID-C1+
  165: 
  166: The [[ODROID-C1]] is a quad core Cortex-A5 small form-factor board from Hardkernel co., Ltd.
  167: 
  168: ### Intel **DBPXA250** ("Lubbock")
  169: 
  170: DBPXA250 (a.k.a. Lubbock) is an evaluation and development platform for the
  171: Intel **PXA250** XScale Core application processor. More information about the **DBPXA250** can be found at [Intel website](http://www.intel.com/design/pca/applicationsprocessors/swsup/index.htm).
  172: 
  173: Support for the **DBPXA250** was written by Hiroyuki Bessho, and contributed
  174: by Genetec Corp.
  175: 
  176:  * On-chip timers (_saost_ used as system clock)
  177:  * On-chip 2 serial port (_com_)
  178:  * On-board SMC91C96 ethernet (_sm_)
  179:  * On-board SA-1111 StrongArm companion chip (_sacc_)
  180:  * PS/2 keyboard (_pckbd_)
  181:  * 640x480 LCD (_lcd_)
  182:  * PCMCIA and CF card slots
  183: 
  184: ### Intel **IQ31244**
  185: 
  186: The IQ31244 is a development platform for the Intel **IOP321** I/O Processor
  187: chipset and the Intel **i31244** SATA controller.
  188: 
  189: Initial support for the IQ31244 was written by Jason Thorpe, and contributed
  190: by Wasabi Systems, Inc.
  191: 
  192:  * Quad on-board Intel i31244 SATA controllers on the PCI-X bus (_artsata_)
  193:  * On-board Intel i82546EB Gigabit Ethernet on the PCI-X bus (_wm_)
  194:  * On-board NS16550-compatible serial port (_com_)
  195:  * On-chip timers (TMR0 used as system clock)
  196:  * On-chip Application Accelerator Unit (_iopaau_)
  197:  * On-chip watchdog timer (_iopwdog_)
  198:  * On-board compact flash reader (_wdc_)
  199:  * Other devices inserted into the PCI-X expansion slot
  200: 
  201: ### Intel **IQ80310**
  202: 
  203: The IQ80310 is the reference platform for the Intel **IOP310** I/O Processor
  204: chipset, which is comprised of the i80200 XScale processor and the i80312 I/O
  205: Companion chip.
  206: 
  207: Support for the IQ80310 was written by Jason Thorpe and Allen Briggs, and
  208: contributed by Wasabi Systems, Inc.
  209: 
  210:  * On-board Intel i82559 Ethernet on the PCI bus (_fxp_)
  211:  * On-board timer in the CPLD (used as system clock)
  212:  * On-board NS16550-compatible serial ports (_com_)
  213:  * Other devices inserted into the PCI expansion slots
  214: 
  215: ### Intel **IQ80321**
  216: 
  217: The IQ80321 is the reference platform for the Intel **IOP321** I/O Processor
  218: (i80321 XScale processor).
  219: 
  220: Support for the IQ80321 was written by Jason Thorpe, and contributed by Wasabi
  221: Systems, Inc.
  222: 
  223:  * On-board Intel i82544EI Gigabit Ethernet on the PCI-X bus (_wm_)
  224:  * On-board NS16550-compatible serial port (_com_)
  225:  * On-chip timers (TMR0 used as system clock)
  226:  * On-chip Application Accelerator Unit (_iopaau_)
  227:  * On-chip watchdog timer (_iopwdog_)
  228:  * Other devices inserted into the PCI-X expansion slots
  229: 
  230: ### Intel **IXM1200**
  231: 
  232: The IXM1200 is the reference platform for the Intel **IXP1200** Network
  233: Processor.
  234: 
  235: Support for the IXM1200 was written by Ichiro FUKUHARA and Naoto Shimazaki.
  236: 
  237:  * On-board Intel i82559 Ethernet on the PCI bus (_fxp_)
  238:  * On-board Intel i21555 Non-Transparent PCI-PCI Bridge (_nppb_)
  239:  * On-chip timers (ixpclk0 used as system clock)
  240:  * On-chip serial port (_ixpcom_)
  241: 
  242: ### NOVATEC **NTNP425B** ("ZAO425")
  243: 
  244: NTNP425B is an evaluation and development platform for the Intel **IXP425**
  245: XScale Core NetworkProcessor. NTNP425B is based on the reference board of
  246: Intel **IXDP425**. The **NTNP425B** is capable of only big-endian operation.
  247: Since the library for micro-engine(NPE) offered from Intel Corp. is big-
  248: endian. More information about the **NTNP425B** can be found on [product
  249: catalogue of **NTNP425B**(2.5MB,PDF
  250: file)](http://www.novatec.co.jp/NTNP425BBrochureE.pdf).
  251: 
  252: Support for the NTNP425B was written by Ichiro FUKUHARA.
  253: 
  254:  * On-chip timers (_ixpclk0_ used as system clock)
  255:  * On-chip 2 serial port (_ixpcom0_ and _ixpcom1_)
  256:  * Other devices inserted into the PCI/mPCI slot
  257:  * On-chip watchdog timer (_ixpwdog_)
  258: 
  259: ### NVIDIA Tegra K1
  260: Support for NVIDIA [[Tegra]] K1 SoCs is present in NetBSD-current and
  261: 8.0_BETA. The Jetson TK1 board is currently supported.
  262: 
  263: ### Raspberry Pi Foundation **Raspberry Pi**/**Raspberry Pi 2**/**Raspberry Pi 3**
  264: The [[Raspberry Pi]] is a low-cost credit-card-sized computer from the Raspberry Pi Foundation.  The Raspberry Pi, Pi 2, and Pi 3 are supported.
  265: 
  266: ### Samsung **SMDK2410**
  267: 
  268: The SMDK2410 is the reference platform for the Samsung **S3C2410** processor,
  269: which has an ARM920T core.
  270: 
  271: More information on the S3C2410 can be found at [Samsung Electronics web page]
  272: (http://www.samsung.com/Products/Semiconductor/MobileSoC/ApplicationProcessor/
  273: ARM9Series/S3C2410/S3C2410.htm).
  274: 
  275: Support for the SMDK2410 was written by Hiroyuki Bessho, and contributed by
  276: Genetec Corp.
  277: 
  278:  * On-chip serial ports (_sscom_)
  279:  * On-chip USB host controller (_ohc_)
  280:  * On-chip timers (used as system clock)
  281:  * On-chip SPI (_ssspi_, used for other on-board devices)
  282:  * 240x320 TFT LCD (_lcd_)
  283:  * keyboard. (_sskbd_)
  284: 
  285: ### Samsung **SMDK2800**
  286: 
  287: The SMDK2800 is the reference platform for the **Samsung S3C2800** processor,
  288: which has an ARM920T core.
  289: 
  290: S3C2800 has built-in PCI controller, and SMDK2800 has three PCI slots.
  291: 
  292: Support for the SMDK2800 was written by Hiroyuki Bessho, and contributed by
  293: Fujitsu Component Ltd., and Genetec Corp.
  294: 
  295:  * On-chip serial ports (_sscom_)
  296:  * On-chip Host-PCI bridge (_sspci_)
  297:  * On-chip timers (used as system clock)
  298:  * Other devices inserted into the PCI slots
  299: 
  300: ### Team ASA, Inc. **Npwr**
  301: 
  302: The Npwr is an IOP310-based design targeted at the network-attached storage
  303: space. The Npwr comes in several configurations (single or dual Gigabit
  304: Ethernet, single or dual Ultra160 SCSI), and can be purchased as a bare board
  305: or as a small server appliance. More information on the Npwr can be found at
  306: the [Team ASA web page](http://www.teamasa.com/).
  307: 
  308: Support for the Npwr was written by Jason Thorpe and Allen Briggs, and
  309: contributed by Wasabi Systems, Inc.
  310: 
  311:  * On-board Intel i82544 Gigabit Ethernet on the PCI bus (_wm_)
  312:  * On-board LSI Logic 53c1010 Ultra160 SCSI on the PCI bus (_siop_)
  313:  * On-board timer in the CPLD (used as system clock)
  314:  * On-board NS16550-compatible serial port (_com_)
  315: 
  316: ### Technologic Systems **TS-7200**
  317: 
  318: The TS-7200 is a low-cost mass-produced PC/104 embedded single board computer
  319: intended as a general purpose core for real embedded applications. The TS-7200
  320: uses the Cirrus Logic EP9302 ARM9 system-on-chip and comes with a PC/104 (isa)
  321: bus and can either boot to CompactFlash or onboard flash. The board also has
  322: general purpose digital IO and optional multichannel analog-to-digital
  323: converters. More information on the TS-7200 can be found at [Technologic
  324: Systems](http://www.embeddedarm.com/epc/ts7200-spec-h.html).
  325: 
  326: Support for the TS-7200 was written by Jesse Off
  327: 
  328: * On-CPU RS232 UARTs (2) (_epcom_)
  329: * On-CPU 10/100 Ethernet MAC (_epe_)
  330: * CompactFlash socket (_wdc_)
  331: * USB 1.1 ports (2) (_ohci_)
  332: * Watchdog timer on CPLD (_tspld_)
  333: * TMP124 high precision temperature sensor via sysctl
  334: * 64Hz system clock from on-CPU timers (_epclk_)
  335: * HD44780 2x24 text mode LCD (_tslcd_)
  336: * 4x4 16 button matrix keypad (_wskbd_)
  337: * TS-5620 battery backed RTC daughter-card (_tsrtc_)
  338: * 1,2,4 port serial TS-SER daughter cards (_com_)
  339: * Up to 4 10Mb TS-ETH10 daughter cards (_tscs_)
  340: * Other devices inserted into the PC/104 (_isa_) expansion slot
  341: 
  342: """
  343: additional="""
  344:   * The [NetBSD Diskless HOWTO](http://www.netbsd.org/docs/network/netboot/)
  345:   * [ Porting NetBSD/evbarm to the Arcom Viper](http://www.cs.hut.fi/~pooka/pubs/EuroBSDCon2005/viper.pdf), presented at EuroBSDCon 2005.
  346: """
  347: ]]
  348: [[!tag tier1port]]

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